Module 19: Urinary System

Question 1

Function of ureters

Answer 1

Transport urine from kidneys(renal pelvis) to the bladder

Question 2

Function of bladder

Answer 2

Store urine

Question 3

Function of urethra

Answer 3

External release of urine

Question 4

How are kidneys positioned

Answer 4

Retroperitoneal

Question 5

7 Functions of Urinary System

Answer 5

• regulate electrolytes
• regulates blood pH
• maintains blood concentration (osmolarity)
• regulates blood volume
• regulates blood pressure
• excretes wastes
• produces and releases of hormones

Question 6

Controls levels of various anions and cations

Answer 6

Regulation of electrolytes

Question 7

Control of pH by secretion H+ into the urine and return of HCO3 back to blood

Answer 7

Regulation of pH

Question 8

Control of blood concentration

Answer 8

Maintenance of blood osmolarity

Question 9

Adjusts blood volume by conserving or eliminating urine

Answer 9

Regulation of blood volume

Question 10

Adjusts blood pressure by conserving or eliminating Na+ and urine

Answer 10

Regulation of blood pressure

Question 11

Excretion of ammonia, urea, bilirubin, creatinine, Utica acid, and other wastes

Answer 11

Excretion of wastes

Question 12

Calcitriol (active vitamin D) to increase calcium levels; erythropoietin to increase RBD production

Answer 12

Production of hormones

Question 13

Release of glucose, produced by gluconeogenesis, into the blood

Answer 13

Regulation of blood glucose level

Question 14

From deep to superficial list the 3 layers of tissue in the kidney

Answer 14

Renal capsule
Adipose capsule
Renal fascia

Question 15

Renal capsule

Answer 15

Protect and maintain shape of kidney

Question 16

Adipose capsule

Answer 16

Protect and maintain position of kidney in abdominal cavity

Question 17

Renal fascia

Answer 17

Anchors kidney to abdominal wall and neighboring structures

Question 18

2 regions of of the kidney

Answer 18

Renal cortext

Medulla

Question 19

Triangular structures within the medulla that appear striated due to the presence of the renal tubules and ducts

Answer 19

Renal pyramid

Question 20

Is the renal pyramid striated or non-striated

Answer 20

Striated due to renal tubules and ducts

Question 21

Outermost region & extends between the renal pyramids

Answer 21

Cortex

Question 22

Renal pyramids
• renal papillae
• drain into the calyces

Answer 22

Medulla

Question 23

Functional unit of the kidney (1 million per kidney)

Answer 23

Nephrons

Question 24

Minor calyx(calyces)

Answer 24

8-18 per kidney

Question 25

Major calyx(calyces)

Answer 25

2-3 per kidney

Question 26

Each kidney has 2-3 major calyces which will drain into one large cavity called the ___________

Answer 26

Renal pelvis

Question 27

Path of urine drainage in kidney

Answer 27

Collecting duct ➡️ papillary duct ➡️ minor calyx ➡️ major calyx ➡️ renal pelvis ➡️ ureter ➡️ urinary bladder

Question 28

Path of Renal Blood Flow

Answer 28

Abdominal aorta ➡️ renal artery ➡️ segmental arteries ➡️ interlobar arteries ➡️ arcuate arteries ➡️ interlobular arteries ➡️ Afferent Arterioles ➡️ glomerular capillaries ➡️ efferent Arterioles ➡️ peritubular capillaries ➡️ interlobular veins ➡️ arcuate veins ➡️ interlobar veins ➡️ renal vein ➡️ inferior vena cava

Question 29

2 unique vascular features of the kidneys

Answer 29

1. Glomerular capillaries are positioned between two groups of Arterioles
2. There are 2 sets of capillaries
   • glomerular capillaries
   • peritubular capillaries

Question 30

Located in the cortex and is the structure of the nephron that filters the blood

Answer 30

Renal corpuscle

Question 31

Because it isn’t blood anymore and it still isn’t urine yet, what is it called in the renal corpuscle

Answer 31

Glomerular filtrate

Question 32

Receives fluid from the filtration process(glomerular filtrate)

Answer 32

Glomerular capsule

Question 33

3 renal functions

Answer 33

• glomerular filtration
• tubular reabsorption
• tubular secretion

Question 34

Production of glomerular filtrate through the filtration of waste-laden blood by the glomerulus

Answer 34

Glomerular filtration

Question 35

Process of returning important substances from the glomerular filtrate back to the bloodstream

Answer 35

Tubular reabsorption

Question 36

Process of transporting substances from the bloodstream into the glomerular filtrate

Answer 36

Tubular secretion

Question 37

Because it isn’t blood anymore and it still isn’t urine yet, what is it called in the renal corpuscle

Answer 37

Glomerular Filtrate

Question 38

Receives fluid from the filtration process(glomerular filtrate)

Answer 38

Glomerular capsule

Question 39

3 pressures that contribute to glomerular filtration

Answer 39

GBHP: Glomerular blood(capillary) hydrostatic pressure

CHO: capsular hydrostatic pressure

BCOP: blood colloid osmotic pressure

Question 40

GBHP

Answer 40

Glomerular Blood(capillary) Hydrostatic Pressure

Cause by: blood pressure in capillaries
Action: favors filtration
mmHg: 55

Question 41

CHP

Answer 41

Capsular hydrostatic pressure

Caused by: fluid present in capsular space
Action: opposes filtration
mmHg: 15

Question 42

BCOP

Answer 42

Blood colloid osmotic pressure

Caused by: osmotic pressure from proteins remaining in the plasma
Action: opposes filtration
mmHg: 30

Question 43

Net Filtration Pressure

Answer 43

GBHP - CHP - BCOP = NFP(Net Filtration Pressure)

55 - 15 - 30 = 10 mmHg

Question 44

Blood minus the formed elements (cells) and the majority of the plasma proteins

Answer 44

Glomerular filtrate

Question 45

Through filtration _______% of the plasma becomes part of the filtrate

Answer 45

16-20%

Question 46

Process of returning important substances from the glomerular filtrate back to body

Answer 46

Tubular reabsorption

Question 47

How much filtrate is reabsorbed

Answer 47

99%

65% water, 100% glucose, 50% urea

Question 48

2 routes that a substance can be reabsorbed from

Answer 48

1. Paracellular reabsorption: between renal tubule cells

2. Transecellular reabsorption: through renal tubule cells

Question 49

The majority of solute and water reabsorption occurs in

Answer 49

The proximal convoluted tubule

Question 50

To maximize reabsorption capacity, cells of the proximal convoluted tubule are ______________ with prominent ___________.

Answer 50

Cuboidal epithelium, Microvilli

Question 51

Present on surfaces of cells to actively reabsorbed many of the solutes

Answer 51

Transport proteins

Question 52

Each transport protein has a transport speed limit

Answer 52

Transport maximum

Question 53

The presence of solute above the limit will result in

Answer 53

Excretion of the excess solute in the urine

Question 54

Loss of glucose in the urine

Answer 54

Glucosuria

Question 55

• 90% water reabsorption
• As go solutes, so goes water
• water follows concentration gradient throughout most of the nephron

Answer 55

Obligatory reabsorption

Question 56

• 10% of water reabsorption
• variable water random prion to adapt to specific needs
• regulates by ADH in the renal tubules and collecting ducts

Answer 56

Facultative reabsorption

Question 57

Transport of substances from the bloodstream to the glomerular filtrate

Answer 57

Tubular secretion

Question 58

2 main functions of tubular secretion

Answer 58

1. Secretion of H+ ions control pH

2. Hydrogen and Ammonium ions are secreted and bicarbonate conserved to maintain physiological pH

Question 59

Where does tubular secretion occur

Answer 59

Throughout the nephrons

Question 60

What substances are secreted in tubular secretion

Answer 60

H+, K+, NH4+, creatinine, and some drugs

Question 61

Renal influence of the Renin-Angiotensin-Aldosterone System

Answer 61

Stimulus: ⬇️ blood pressure = ⬇️ pressure in Afferent Arterioles = Juxtaglomerular cells secrete hormone renin = Renin converts angitensinogen to angiotensin l = angiotensin converting enzyme converts angiotensin l to angiotensin ll = angiotensin ll causes vasoconstriction of Afferent Arterioles, enhanced Na, Cl, and H20 reabsorption, and stimulates adrenal cortex to secrete aldosterone = aldosterone signals cells in collecting ducts to reabsorbed more Na, Cl, and H20 and secrete more K+

Question 62

Renal influence of ADH

Answer 62

• osmotic rotors in hypothalamus detect ⬆️ blood solute in concentration
• posterior pituitary secreted ADH
• ADH stimulates insertion of H2O channel proteins(aquaporin-2) in cells of collecting duct
• ⬆️ H2O permeability and reabsorption of water

Question 63

_________ implies two fluids flowing in opposite directions

Answer 63

Countercurrent

Question 64

2 countercurrent mechanisms

Answer 64

• countercurrent multiplier

* countercurrent exchange

Question 65

Countercurrent multiplier

Answer 65

• interstitial fluid and glomerular filtrate become progressively more concentrated the deeper they are in the medulla (because H2O is reabsorbed from the filtrate as it flows down the descending limb)
• ascending limb cells actively transport solutes into interstitial fluid (but limb is not permeable to water)…..solutes are leaving filtrate and water isn’t = becomes less concentrated as it flows up the ascending limb
• water & urea are reabsorbed by collecting duct cells. Water diffuses into vasa recta. Urea recycling: exchange of urea between renal tubules and interstitial fluid

Summary:

• as filtrate flows down descending limb it becomes more concentrated(water reabsorption)
• as filtrate flows up ascending limb it becomes less concentrated (reabsorption of Na+ and Cl- by active transport)

Question 66

Countercurrent exchange

Answer 66

Vasa recta & urea cycling

Question 67

Vasa recta

Answer 67

• supplies cells with oxygen and nutrients

- allows for easy water reabsorption

Question 68

Urea cycling

Answer 68

• water and urea reabsorbed from collecting duct
• water diffuse into vasa recta
• urea can diffuse into lower portions of nephron loop

Question 69

Volume of normal urine

Answer 69

1-2 L per day

Question 70

Color of normal urine

Answer 70

Variable shades of yellow

Question 71

Turbidity of normal urine

Answer 71

Clear

Question 72

Odor of normal urine

Answer 72

Variable ammonia-like odor

Question 73

pH of normal urine

Answer 73

Variable: 4.5-8
Average: 5-6.5

Question 74

Specific gravity of urine

Answer 74

1.005-1.025

Question 75

Measures the nitrogen in the blood due to amount of urea present

Answer 75

Blood urea nitrogen(BUN)

Question 76

_______ is a waste product of muscle tissue

Answer 76

Creatinine

Question 77

Creatinine is a waste product of muscle tissue

Answer 77

Plasma creatinine

Question 78

Increased amounts in the blood commonly represent a ___________ glomerular filtration rate

Answer 78

Decreased

Question 79

2 lab tests to evaluate renal function

Answer 79

Blood urea nitrogen (BUN)

Plasma creatinine

Question 80

To provide an extra energy reserve in muscle, the body uses _______

Answer 80

Creatine

Question 81

What are the ureters lined with

Answer 81

Transitional epithelium

Question 82

What does secreted mucus in the ureters do

Answer 82

Protect the epithelium from coming into direct contact with urine(slightly acidic)

Question 83

What does transitional epithelium do for the ureters

Answer 83

Allows the ureter to stretch with variable volumes of urine

Question 84

How long are the ureters

Answer 84

25-30cm long

Question 85

3 ways that help ureters transport urine

Answer 85

Peristalsis
Hydrostatic pressure
Gravity

Question 86

Where do the ureters attach to bladder

Answer 86

Obliquely to the base

Question 87

Describe structure of bladder

Answer 87

Hollow, distensible organ

Question 88

How much does the bladder hold

Answer 88

700-800 ml

Question 89

Triangular-shaped area formed by openings of the ureters and urethra

Answer 89

Trigone

Question 90

Folds(Rugae) in mucous membrane lining of bladder allow _________.

Answer 90

Distension

Question 91

Contracts to assist in excreting urine

Answer 91

Detrusor muscle

Question 92

3 muscle fiber layers of detrusor muscle

Answer 92

Inner-longitudinal
Middle-circular
Outer-longitudinal

Question 93

Internal and external urethral sphincters

Answer 93

Internal: involuntary
External: voluntary

Question 94

Release of urine from the bladder, urination or voiding

Answer 94

Micturition

Question 95

Is Micturition voluntary or involuntary

Answer 95

Both

Question 96

Micturition reflex

Answer 96

• stretch receptors stimulate when bladder = 200-400ml
• parasympathetic response = detrusor muscle contracts and internal urethral sphincter relaxes
• conscious..bladder full
• voluntary inhibition of somatic neurons to external urethral sphincter
• voiding

Question 97

How long is male urethra

Answer 97

20 cm (8in) long

Question 98

3 regions of male urethra

Answer 98

Prostatic
Membranous
Spongy

Question 99

How long are females urethra

Answer 99

4cm(1.5in)

Question 100

Where are females urethra located

Answer 100

Between clitoris and vaginal opening

Question 101

Shorter length of female urethras contribute to ________

Answer 101

Bladder infections

Question 102

T/F: the Males urethra is shared with the reproductive system

Answer 102

True

Question 103

The fluids in the body account for _____ of overall body mass

Answer 103

60%

Question 104

2/3 of the total fluid in the body is _________

Answer 104

Intracellular (fluid within cells)

Question 105

1/3 of total fluid in body is _______

Answer 105

Extra cellular (fluid outside cells)

Question 106

Fluid in the tissues that is “bathing” the cells

Answer 106

Interstitial fluid

Question 107

Is interstitial fluid part of the Intracellular or extracellular fluid

Answer 107

Extracellular

Question 108

Plasma, glomerular filtrate, lymph, CSF, GI, synovial, eats, eyes, pleural, pericardial, and peritoneal fluids are all part of which…the Intracellular of extra cellular

Answer 108

Extracellular

Question 109

The main extracellular space for fluid is the ___________________

Answer 109

Interstitial compartment

Question 110

A small volume of water is gained through ATP synthesis and is called ____________

Answer 110

Metabolic water

Question 111

Water gain and water loss are supposed to be ________

Answer 111

Equal

Question 112

Where is the thirst center located

Answer 112

Hypothalamus

Question 113

A condition that occurs when water loss exceeds water gain

Answer 113

Dehydration

Question 114

Function of thirst center

Answer 114

Detects increases in blood osmolarity

Question 115

2 things dehydration does

Answer 115

⬇️ blood pressure

⬆️ blood osmolarity

Question 116

Other receptors for dehydration include the kidneys, baroreceptors in the arteries, and neurons in the mouth that detect dryness

Answer 116

🙂

Question 117

2 mechanisms to regulate daily water gain

Answer 117

Thirst center

Dehydration

Question 118

Condition where there’s a decrease in interstitial concentration and water moves into the Intracellular space and cause cellular swelling, and if sever enough, cellular death

Answer 118

Water intoxication

Question 119

For cells not to shrink or swell, the ________ of both fluids has to be the same

Answer 119

Osmolarity

Question 120

Kidneys excrete water at a rate of ________

Answer 120

15 ml/min

Question 121

Distribution of anions and cations that are higher extracellular

Answer 121

Sodium
Chloride
Bicarbonate
Calcium

Question 122

Distribution of anions and cations that are higher Intracellularly

Answer 122

Protein anions
Potassium
Magnesium
Phosphate
Sulfate

Question 123

Units to express electrolyte levels

Answer 123

Milliequivalents/Liter (mEg/L)

Question 124

Reflects the concentration of anions or cations in a given volume

Answer 124

Milliequivalents/Liter (mEq/L)

Question 125

One _______ is the positive or negative charges equal to the amount of charges in _______ of H+ ions

Answer 125

Equivalent, 1 mole

Question 126

A milliequivalent is

Answer 126

1/1000 of an equivalent

Question 127

Molecules that have the ability to bind to H+, this reducing the pH of the solution

Answer 127

Buffers

Question 128

Do buffers remove H+ from the body

Answer 128

No. They bind to them. The Hydrogen ions become Hydrogen atoms

Question 129

3 common buffering systems

Answer 129

• Protein buffering system
• Carbonic acid-bicarbonate buffering system
• phosphate buffering system

Question 130

Hyperventilation _______ pH

Answer 130

Increases

Question 131

Hypoventilation _______ pH

Answer 131

Decreases

Question 132

An increase in ________ results in an increase in H+, so any condition causing the accumulation of _____ will result in lower pH

Answer 132

CO2, CO2

Question 133

T/F: changes in rate and depth of ventilation does not alter the blood pH

Answer 133

False! It does alter pH

Question 134

T/F: pH alterations can take place in a couple of minutes

Answer 134

True

Question 135

Metabolic reactions produce large amounts of _______

Answer 135

Acids

Question 136

The kidneys can secrete large amounts of ___

Answer 136

H+

Question 137

How can kidneys secrete large amounts of H+

Answer 137

• H+ are exchanged for Na+ in proximal convoluted tubule

* proton pumps in collecting duct

Question 138

The collecting ducts can secrete ______ when the pH is low and _____ when the pH is high

Answer 138

H+, HCO3-

Question 139

Normal blood pH

Answer 139

7.35-7.45

Question 140

Blood pH below 7.35

Answer 140

Acidosis

Question 141

Blood pH above 7.45

Answer 141

Alkalosis

Question 142

• urine dipstick test
• 1-10 absorbent pads, each detecting a different chemical
  • protein, glucose, bilirubin, blood, evidence of white blood cells and bacteria

Answer 142

Biochemical UA test

Question 143

• sediment from centrifuged urine sample is viewed using a light microscope
  • white blood cells, RBC’s, yeast, bacteria, etc.

Answer 143

Microscopic UA test

Question 144

Renal corpuscle consists of

Answer 144

• glomerulus

- glomerular capsule

Question 145

Two groups of structures that makeup nephron

Answer 145

Renal corpuscle

Renal tubules

Question 146

Renal tubules consists of

Answer 146

• proximal convoluted tubule
• nephron loop
• distal convoluted tubule

Question 147

Filtering structure of nephron

Answer 147

Renal corpuscle

Question 148

Tightly-coiled tubule attached directly to glomerulus

Answer 148

Proximal convoluted tubule

Question 149

Tightly-coiled tubules farther away from glomerulus

Answer 149

Distal convoluted tubule

Question 150

Several distal convoluted tubules come together to form a _________

Answer 150

Collecting duct

Question 151

Many collecting ducts merge to form ______

Answer 151

Papillary duct

Question 152

Two types of nephrons

Answer 152

Cortical

Justanedullary

Question 153

80-85% of nephrons

Answer 153

Cortical

Question 154

15-20% nephrons

Answer 154

Juxtamedullary

Question 155

Nephron loop extends only a short distance into medulla

Answer 155

Cortical nephron

Question 156

Nephron loop extends deep into medulla

Answer 156

Juxtamedullary nephron

Question 157

• Densely-packed columnar cells in the ascending nephron loop
• arranged next to the Afferent arteriole

Answer 157

Macula densa

Question 158

Specialized smooth muscle cells of the Afferent arteriole that control vessel in diameter

Answer 158

Juxtaglomerular cells

Question 159

Together, the macula densa and juxtaglomerular cells…

Answer 159

Control the blood pressure and filtration rate in kidneys

Question 160

3 layers of tissue that form the filtration membrane

Answer 160

Capillary endothelium
Basal lamina
Podocytes

Question 161

This contains fenestrated capillaries and limits passage of formed elements.

Answer 161

Capillary endothelium

Question 162

Connective tissue membrane and limits passage of large proteins

Answer 162

Basal lamina

Question 163

Specialized epithelium formed from the glomerular capsule.
• Pedicels form the slit membrane
• limits passage of small proteins

Answer 163

Podocytes

Question 164

Small spaces between pedicels

Answer 164

Filtration slits

Question 165

The amount of glomerular filtrate formed each minute

Answer 165

Glomerular filtration rate

Question 166

3 regulatory mechanisms to control GFR

Answer 166

1. Renal autoregulation
2. Neural regulation
3. Hormonal regulation

Question 167

3 ways of renal autoregulation

Answer 167

• Myogenic mechanism

- Tubuloglomerular feedback

Question 168

Constricting or dilating the Afferent and efferent Arterioles to control GFR

Answer 168

Myogenic mechanism

Question 169

Tubulomerular feedback

Answer 169

• macula densa detects ⬆️ Na+, Cl- and water

- ⬇️ release of nitric oxide = vasoconstriction of Afferent Arterioles

Question 170

Neural regulation

Answer 170

⬆️ sympathetic control
• ⬆️ norepinephrine
• constriction of Afferent arteriole = ⬇️ GFR

Question 171

2 hormones that contribute to hormonal regulation

Answer 171

Angiotensin ll

Atrial natriuretic peptide (ANP)

Question 172

Angiotensin ll

Answer 172

• vasoconstrictor

* ⬇️ GFR

Question 173

Atrial natriuretic peptide (ANP)

Answer 173

• vasodilator

* ⬆️ GFR

Question 174

Milliosmole

Answer 174

Number of parts

Question 175

Milliequivalent

Answer 175

Number of charges

Question 176

Protein buffering system

Answer 176

• most abundant buffering system in plasma and Intracellular fluid
• carboxyl function group can bind H+
• side chains on 7 of 20 amino acids can bind H+

Question 177

Carbonic acid-bicarbonate buffering system

Answer 177

Bicarbonate ion (weak base) can bind to H+ to form carbonic acid (weak acid)

Question 178

Phosphate buffering system

Answer 178

Monohydrogen phosphate(weak base) can bind H+ and form dihydrogen phosphate (weak acid)

Question 179

Respiratory acidosis

Answer 179

Changes: accumulation of excess CO2

Causes:

• Hypoventilation
• emphysema
• overdose of respiratory-suppressive drugs

Question 180

Respiratory alkalosis

Answer 180

Changes: exhalation of too much CO2

Causes:

• severe anxiety
• oxygen deficiency

Question 181

Metabolic acidosis

Answer 181

Changes:

• ⬇️ plasma HCO3
• non-respiratory acid accumulation
• failure of kidneys to secrete H+

Causes:

• diarrhea
• ketosis, lactic acidosis, etc
• renal dysfunction

Question 182

Metabolic alkalosis

Answer 182

Changes:

• non-respiratory acid loss
• excessive HCO3

Causes:

• vomiting
• alkaline drugs (antacids)